System, Method, and Product for Managing Data Transfers in a Network

1. A method for managing data transmitted from a first end node to a second end node in a data processing system, said method comprising the steps of: establishing a logical connection between said first end node and said second end node prior to transmitting data between said first and second end nodes; associating an instance number with said logical connection; and including said instance number in each packet transmitted between said first and second end nodes while said logical connection remains established, said instance number remaining constant during said logical connection.

2. The method according to claim 1 , further comprising the steps of: reestablishing said logical connection between said first and second end nodes; incrementing said instance number, said incremented instance number being associated with said reestablished logical connection; and including said incremented instance number in each packet transmitted between said first and second end nodes during said reestablished logical connection, said incremented instance number remaining constant during said reestablished logical connection.

3. The method according to claim 1 , wherein the step of establishing a logical connection between said first end node and said second end node further comprises the step of: associating a queue pair in said first end node with a queue pair in said second end node.

4. The method according to claim 3 , wherein said step of associating a queue pair in said first end node with a queue pair in said second end node further comprises the steps of: establishing a table of queue pairs in said first end node; and storing within said table an indication of an association between said queue pair in said first end node with a queue pair in said second end node.

5. The method according to claim 4 , further comprising the steps of: transmitting a packet from said second end node to said first end node utilizing a paiticular logical connection; receiving, utilizing said first end node, said packet; and utilizing said table to determine whether said particular logical connection was previously established.

6. The method according to claim 5 , wherein said step of utilizing said table to determine whether said particular logical connection was previously established further comprises the step of: determining whether an indication is stored in said table of an association between a queue pair in said first end node with a queue pair in said second end node.

7. The method according to claim 1 , further comprising the step of: including said instance number in a transport header in each packet transmitted between said first and second end nodes during said logical connection.

8. The method according to claim 1 , further comprising the step of: including said instance number in a sequence number field in a transport header in each packet transmitted between said first and second end nodes during said logical connection.

9. The method according to claim 1 , further comprising the step of: including said instance number in each sequence number field included in packets transmitted between said first and second end nodes during said logical connection.

10. The method according to claim 1 , further comprising the steps of: determining whether said logical connection is a first logical connection between said first and second end nodes; in response to a determination that said logical connection is a first logical connection: associating an instance number with said logical connection; including said instance number in each packet transmitted between said first and second end nodes during said logical connection, said instance number remaining constant during said logical connection; and using said instance number as a current instance number; and in response to a determination that said logical connection is not a first logical connection: incrementing said current instance number; using said incremented current instance number as a current instance number; and including said incremented current instance number in each packet transmitted between said first and second end nodes during said logical connection.

11. The method according to claim 1 , further comprising the steps of: losing said logical connection; reestablishing said logical connection between said first and second end nodes executing no wait states between losing said logical connection and reestablishing said logical connection.

12. The method according to claim 1 , further comprising the steps of: transmitting a packet from said first end node to said second end node; and including a current instance number in said packet.

13. The method according to claim 1 , further comprising the steps of: receiving, by said second end node, a packet; identifying, utilizing said second end node, an instance number included in said received packet; determining a current instance number; determining whether said instance number included in said received packet is said current instant number; in response to a determination that said instance number included in said received packet is said current instant number, processing said packet normally by said second end node; and in response to a determination that said instance number included in said received packet is not said current instant number, discarding, by said second end node, said packet.

14. The method according to claim 1 , further comprising the steps of: after establishing said logical connection, setting, by said first end node, a sequence number; incrementing said sequence number after each transmission of a packet from said first end node to said second end node; after each transmission of a packet from said first end node to said second end node, setting a current sequence number equal to said incremented sequence number; and including a current sequence number in each packet transmitted from said first end node to said second end node.

15. A method for managing data transmitted from a first end node to a second end node in a data processing system, said method comprising the steps of: establishing a logical connection between said first end node and said second end node prior to transmitting data between said first and second end nodes; including a current sequence number in each packet transmitted from said first end node to said second end node, said current sequence number being incremented each time a packet is transmitted from said first end node to said second end node; associating an instance number with said logical connection; and including said instance number in each sequence number field, said instance number remaining constant during said logical connection.

16. The method according to claim 15 , further comprising the steps of: reestablishing said logical connection between said first and second end nodes; incrementing maid instance number, said incremented instance number being associated with said reestablished logical connection; and including said incremented instance number in each sequence number field, said incremented instance number remaining constant during said reestablished logical connection.

17. The method according to claim 15 , wherein the step of establishing a logical connection between said first end node and said second end node further comprises the step of: associating a queue pair in said first end node with a queue pair in said second end node.

18. The method according to claim 17 , wherein said step of associating a queue pair in said first end node with a queue pair in said second end node further comprises the steps of: establishing a table of queue pairs in said first end node; and storing within said table an indication of an association between said queue pair in said first end node with a queue pair in said second end node.

19. The method according to claim 18 , further comprising the steps of: transmitting a packet from said second end node to said first end node utilizing a particular logical connection; receiving, utilizing said first end node, said packet; and utilizing said table to determine whether said particular logical connection was previously established.

20. The method according to claim 19 , wherein said step of utilizing said table to determine whether said particular logical connection was previously established further comprises the step of: determining whether an indication is stored in said table of an association between a queue pair in said first end node with a queue pair in said second end node.

21. The method according to claim 15 , further comprising the steps of: determining whether said logical connection is a first logical connection between said first and second end nodes; in response to a determination that said logical connection is a first logical connection; associating an instance number with said logical connection; including said instance number in each sequence number field transmitted between said first and second end nodes during said logical connection; and using said instance number as a current instance number; and in response to a determination that said logical connection is not a first logical connection: incrementing said current instance number; using said incremented current instance number as a current instance number; and including said incremented current instance number in each sequence number field transmitted between said first and second end nodes during said logical connection.

22. The method according to claim 15 , further comprising the steps of: losing said logical connection; and reestablishing said logical connection between said first and second end nodes executing no wait states between losing said logical connection end reestablishing said logical connection.

23. The method according to claim 15 , further comprising the steps of: receiving, by said second end node, a packet; identifying, utilizing said second end node, an instance number included in said received packet; determining a current instance number; determining whether said instance number included in said received packet is said current instant number; in response to a determination that said instance number included in said received packet is said current instant number, processing said packet normally by said second end node; and in response to a determination tat said instance number included in said received packet is not said current instant number, discarding, by said second end node, said packet.

24. A data processing system for managing data transmitted from a first end node to a second end node in said data processing system, comprising: means for establishing a logical connection between said first end node and said second end node prior to transmitting data between said first and second end nodes; means for associating an instance number with said logical connection; and means for including said instance number in each packet transmitted between said first and second end nodes while said logical connection remains established, said instance number remaining constant during said logical connection.

25. The system according to claim 24 , further comprising: means for reestablishing said logical connection between said first and second end nodes; means for incrementing said instance number, said incremented instance number being associated with said reestablished logical connection; and means for including said incremented instance number in each packet transmitted between said first and second end nodes during said reestablished logical connection, said incremented instance number remaining constant during said reestablished logical connection.

26. The system according to claim 24 , wherein said means for establishing a logical connection between said first end node and said second end node further comprises: means for associating a queue pair in said first end node with a queue pair in said second end node.

27. The system according to claim 26 , wherein said means for associating a queue pair in said first end node with a queue pair in said second end node further comprises: means for establishing a table of queue pairs in said first end node; and means for storing within said table an indication of an association between said queue pair in said first end node with a queue pair in said second end node.

28. The system according to claim 27 , further comprising: means for transmitting a packet from said second end node to said first end node utilizing a particular logical connection; means for receiving, utilizing said first end node, said packet; and means for utilizing said table to determine whether said particular logical connection was previously established.

29. The system according to claim 28 , wherein said means for utilizing said table to determine whether said particular logical connection was previously established further comprises: means for determining whether an indication is stored in said table of an association between a queue pair in said first end node with a queue pair in said second end node.

30. The system according to claim 24 , further comprising: means for including said instance number in a transport header in each packet transmitted between said first and second end nodes during said logical connection.

31. The system according to claim 24 , further comprising: means for including said instance number in a sequence number field in a transport header in each packet transmitted between said first and second end nodes during said logical connection.

32. The system according to claim 24 , further comprising: means for including said instance number in each sequence number field included in packets transmitted between said first and second end nodes during said logical connection.

33. The system according to claim 24 , further comprising: means for determining whether said logical connection is a first logical connection between said first and second end nodes; in response to a determination that said logical connection is a first logical connection: means for associating an instance number with said logical connection; means for including said instance number in each packet transmitted between said first and second end nodes during said logical connection, said instance number remaining constant during said logical connection; and means for using said instance number as a current instance number; and in response to a determination that said logical connection is not a first logical connection: means for incrementing said current instance number; means for using said incremented current instance number as a current instance number; and means for including said incremented current instance number in each packet transmitted between said first and second end nodes during said logical connection.

34. The system according to claim 24 , further comprising: means for losing said logical connection; means for reestablishing said logical connection between said first and second end nodes executing no wait states between losing said logical connection and reestablishing said logical connection.

35. The system according to claim 24 , further comprising: means for transmitting a packet from said first end node to said second end node; and means for including a current instance number in said packet.

36. The system according to claim 24 , further comprising: means for receiving, by said second end node, a packet; means for identifying, utilizing said second end node, an instance number included in said received packet; means for determining a current instance number; means for determining whether said instance number included in said received packet is said current instant number; in response to a determination that said instance number included in said received packet is said current instant number, means for processing said packet normally by said second end node; and in response to a determination that said instance number included in said received packet is not said current instant number, means for discarding, by said second end node, said packet.

37. The system according to claim 24 , further comprising: after establishing said logical connection, means for setting, by said first end node, a sequence number; means for incrementing said sequence number after each transmission of a packet from said first end node to said second end node; after each transmission of a packet from said first end node to said second end node, means for setting a current sequence number equal to said incremented sequence number; and means for including a current sequence number in each packet transmitted from said first end node to said second end node.

38. A system for managing data transmitted from a first end node to a second end node in a data processing system, comprising: means for establishing a logical connection between said first end node and said second end node prior to transmitting data between said first and second end nodes; means for including a current sequence number in each packet transmitted from said first end node to said second end node, said current sequence number being incremented each time a packet is transmitted from said first end node to said second end node; means for associating an instance number with said logical connection; and means for including said instance number in each sequence number field, said instance number remaining constant during said logical connection.

39. The system according to claim 38 , further comprising: means for reestablishing said logical connection between said first and second end nodes; means for incrementing said instance number, said incremented instance number being associated with said reestablished logical connection; and means for including said incremented instance number in each sequence number field, said incremented instance number remaining constant during said reestablished logical connection.

40. The system according to claim 38 , wherein said means for establishing a logical connection between said first end node and said second end node further comprises: means for associating a queue pair in said first end node with a queue pair in said second end node.

41. The system according to claim 40 , wherein said means for associating a queue pair in said first end node wish a queue pair in said second end node further comprises: means for establishing a table of queue pairs in said first end node; and means for storing within said table an indication of an association between said queue pair in said first end node with a queue pair in said second and node.

42. The system according to claim 41 , further comprising: means for transmitting a packet from said second end node to said first end node utilizing a particular logical connection; means for receiving, utilizing said first end node, said packet; and means for utilizing said table to determine whether said particular logical connection was previously established.

43. The system according to claim 42 , wherein said means for utilizing said table to determine whether said particular logical connection was previously established further comprises: means for determining whether an indication is stored in said table of an association between a queue pair in said first end node with a queue pair in said second end node.

44. The system according to claim 38 , further comprising: means for determining whether said logical connection is a first logical connection between said first and second end nodes; in response to a determination that said logical connection is a first logical connection: means for associating an instance number with said logical connection; means for including said instance number in each sequence number field transmitted between said first and second end nodes during said logical connection; and means for using said instance number as a current instance number; and in response to a determination that said logical connection is not a first logical connection: means for incrementing said current instance number; means for using said incremented current instance number as a current instance number; and means for including said incremented current instance number in each sequence number field transmitted between said first and second end nodes during said logical connection.

45. The system according to claim 38 , further comprising: means for losing said logical connection; and means for reestablishing said logical connection between said first and second end nodes executing no wait states between losing said logical connection and reestablishing said logical connection.

46. The system according to claim 38 , further comprising: means for receiving, by said second end node, a packet; means for identifying, utilizing said second end node, an instance number included in said received packet; means for determining a current instance number; means for determining whether said instance number included in said received packet is said current instant number; in response to a determination that said instance number included in said received packet is said current instant number, means for processing said packet normally by said second end node; and in response to a determination that said instance number included in said received packet is not said current instant number, means for discarding, by said second end node, said packet.

47. A computer readable storage medium when executed by a computer causes managing data transmitted from a first end node to a second end node in a data processing system, said computer readable storage medium comprising: instruction means for establishing a logical connection between said first end node and said second end node prior to transmitting data between said first and second end nodes; instruction means for associating an instance number with said logical connection; and instruction means for including said instance number in each packet transmitted between said first and second end nodes while said logical connection remains established, said instance number remaining constant during said logical connection.

48. The medium according to claim 47 , further comprising: instruction means for reestablishing said logical connection between said first and second end nodes; instruction means for incrementing said instance number, said incremented instance number being associated with said reestablished logical connection; and instruction means for including said incremented instance number in each packet transmitted between said first and second end nodes during said reestablished logical connection, said incremented instance number remaining constant during said reestablished logical connection.

49. The medium according to claim 47 , wherein said instruction means for establishing a logical connection between said first end node and said second end node further comprises: instruction means for associating a queue pair in said first end node with a queue pair in said second end node.

50. The medium according to claim 49 , wherein said instruction means for associating a queue pair in said first end node with a queue pair in said second end node further comprises: instruction means for establishing a table of queue pairs in said first end node; and instruction means for storing within said table an indication of an association between said queue pair in said first end node wit a queue pair in said second end node.

51. The medium according to claim 50 , further comprising: instruction means for transmitting a packet from said second end node to said first end node utilizing a particular logical connection; instruction means for receiving, utilizing said first end node, said packet; and instruction means for utilizing said table to determine whether said particular logical connection was previously established.

52. The medium according to claim 51 , wherein said instruction means for utilizing said table to determine whether said particular logical connection was previously established further comprises: instruction means for determining whether an indication is stored in said table of an association between a queue pair in said first end node with a queue pair in said second end node.

53. The medium according to claim 47 , further comprising: instruction means for including said instance number in a transport header in each packet transmitted between said first and second end nodes during said logical connection.

54. The medium according to claim 47 , further comprising: instruction means for including said instance number in a sequence number field in a transport header in each packet transmitted between said first and second end nodes during said logical connection.

55. The medium according to claim 47 , further comprising: instruction means for including said instance number in each sequence number field included in packets transmitted between said first and second end nodes during said logical connection.

56. The medium according to claim 47 , further comprising: instruction means for determining whether said logical connection is a first logical connection between said first and second end nodes; in response to a determination that said logical connection is a first logical connection: instruction means for associating an instance number with said logical connection; instruction means for including said instance number in each packet transmitted between said first and second end nodes during said logical connection, said instance number remaining constant during said logical connection; and instruction means for using said instance number as a current instance number; and in response to a determination that said logical connection is not a first logical connection: instruction means for incrementing said current instance number; instruction means for using said incremented current instance number as a current instance number; and instruction moans for including said incremented current instance number in each packet transmitted between said first and second end nodes during said logical connection.

57. The medium according to claim 47 , further comprising: instruction means for losing said logical connection; instruction means for reestablishing said logical connection between said first and second end nodes executing no wait states between losing said logical connection and reestablishing said logical connection.

58. The medium according to claim 47 , further comprising: instruction means for transmitting a packet from said first end node to said second end node; and instruction means for including a current instance number in said packet.

59. The medium according to claim 47 , further comprising: instruction means for receiving, by said second end node, a packet; instruction means for identifying, utilizing said second end node, an instance number included in said received packet; instruction means for determining a current instance number; instruction means for determining whether said instance number included in said received packet is said current instant number; in response to a determination that said instance number included in said received packet is said current instant number, instruction means for processing said packet normally by said second end node; and in response to a determination that said instance number included in said received packet is not said current instant number, instruction means for discarding, by said second end node, said packet.

60. The medium according to claim 47 , further comprising: after establishing said logical connection, instruction means for setting, by said first end node, a sequence number; instruction means for incrementing said sequence number after each transmission of a packet from said first end node to said second end node; after each transmission of a packet from said first end node to said second end node, instruction means for setting a current sequence number equal to said incremented sequence number; and instruction means for including a current sequence number in each packet transmitted from said first end node to said second end node.

61. A computer readable storage medium when executed by a computer causes managing data transmitted from a first end node to a second end node in a data processing system, said computer readable storage medium comprising: instruction means for establishing a logical connection between said first end node and said second end node prior to transmitting data between said first and second end nodes; instruction means for including a current sequence number in each packet transmitted from said first end node to said second end node, said current sequence number being incremented each time a packet is transmitted from said first end node to said second end node; instruction means for associating an instance number with said logical connection; and instruction means for including said instance number in each sequence number field, said instance number remaining constant during said logical connection.

62. The medium according to claim 61 , further comprising: instruction means for reestablishing said logical connection between said first and second end nodes; instruction means for incrementing said instance number, said incremented instance number being associated with said reestablished logical connection; and instruction means for including said incremented instance number in each sequence number field, said incremented instance number remaining constant during said reestablished logical connection.

63. The medium according to claim 61 , wherein said instruction means for establishing a logical connection between said first end node and said second end node further comprises: instruction means for associating a queue pair in said first end node with a queue pair in said second end node.

64. The medium according to claim 63 , wherein said instruction means for associating a queue pair in said first end node with a queue pair in said second end node further comprises: instruction means for establishing a table of queue pairs in said first end node; and instruction means for storing within said table an indication of an association between said queue pair in said first end node with a queue pair in said second end node.

65. The medium according to claim 64 , further comprising: instruction means for transmitting a packet from said second end node to said first end node utilizing a particular logical connection; instruction means for receiving, utilizing said first end node, said packet; and instruction means for utilizing said table to determine whether said particular logical connection was previously established.

66. The medium according to claim 65 , wherein said instruction means for utilizing said table to determine whether said particular logical connection was previously established further comprises: instruction means for determining whether an indication is stored in said table of an association between a queue pair in said first end node with a queue pair in said second end node.

67. The medium according to claim 61 , further comprising: instruction means for determining whether said logical connection is a first logical connection between said first and second end nodes; in response to a determination that said logical connection is a first logical connection: instruction means for associating an instance number with said logical connection; instruction means for including said instance number in each sequence number field transmitted between said first and second end nodes during said logical connection; and instruction means for using said instance number as a current instance number; and in response to a determination that said logical connection is not a first logical connection: instruction means for incrementing said current instance number; instruction means for using said incremented current instance number as a current instance number; and instruction means for including said incremented current instance number in each sequence number field transmitted between said first and second end nodes during said logical connection.

68. The medium according to claim 61 , further comprising: instruction means for losing said logical connection; and instruction means for reestablishing said logical connection between said first and second end nodes executing no wait states between losing said logical connection and reestablishing said logical connection.

69. The medium according to claim 61 , further comprising: instruction means for receiving, by said second end node, a packet; instruction means for identifying, utilizing said second end node, an instance number included in said received packet; instruction means for determining a current instance number; instruction means for determining whether said instance number included in said received packet is said current instant number; in response to a determination that said instance number included in said received packet is said current instant number, instruction means for processing said packet normally by said second end node; and in response to a determination that said instance number included in said received packet is not said current instant number, instruction means for discarding, by said second end node, said packet.